CN113656335A - Access strategy system for data fusion of fire fighting - Google Patents

Abstract

The invention provides an access strategy system for data fusion of fire fighting, which comprises a fire fighting peripheral, an interface board card and a data processing module, wherein the fire fighting peripheral is connected with an input interface of the interface board card and is used for acquiring environmental information; the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces; the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling according to the linkage signal; and (5) performing linkage operation on the fire-fighting peripherals. According to the invention, each fire-fighting peripheral is connected with the fire-fighting all-in-one machine through the interface board card, so that a transmission mode that each fire-fighting host independently collects data and then independently collects data in a traditional mode can be broken, and environmental information is uniformly fused and accessed by the fire-fighting all-in-one machine through the interface board card, so that the problem of difficult information intercommunication among all fire-fighting system devices can be solved.

Description

Access strategy system for data fusion of fire fighting

Technical Field

The invention belongs to the technical field of urban fire protection, and particularly relates to an access strategy system for data fusion of fire protection.

Background

The fire safety is an important component of urban public safety, the existing fire system comprises a fire automatic alarm system, a fire power supply monitoring system, a fire door monitor, a fire emergency lighting and evacuation indicating system and other devices, all the devices operate independently, and information is not communicated and shared. Therefore, the existing fire fighting system has the problems of multiple equipment types, difficult information intercommunication, independent system and low automation level.

Disclosure of Invention

The invention aims to provide an access strategy system for data fusion of fire protection, and aims to solve the problems that the existing fire protection system is multiple in equipment types and difficult in information intercommunication.

In order to achieve the purpose, the invention adopts the technical scheme that: an access policy system for data fusion for fire protection, comprising:

an interface board card; the interface board card comprises two bus interface board cards, a CAN communication interface board card and an RS485 interface board card;

the fire-fighting peripheral is connected with the input interface of the interface board card and is used for acquiring environmental information;

the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces;

and the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling the linkage operation of the fire-fighting peripheral equipment according to the linkage signal.

Preferably, the fire-fighting peripheral comprises an acquisition fire-fighting peripheral and a linkage fire-fighting peripheral; gather fire control peripheral hardware includes:

the smoke detector is connected with the two bus interface board cards and is used for collecting the state information of smoke;

the temperature-sensing detector is connected with the two bus interface board cards and is used for collecting the state information of the temperature;

the manual alarm button is connected with the two bus interface board cards and is used for collecting manual data;

the electrical fire monitoring detector is connected with the CAN interface board card or the RS485 interface board card and is used for acquiring the state information of residual current and temperature;

the current/voltage sensor is connected with the CAN interface board card and is used for collecting a current/voltage value;

and the temperature sensing optical fiber is connected with the temperature sensing optical fiber interface board card and is used for collecting the state information of the temperature sensing optical fiber.

Preferably, the linkage fire-fighting peripheral comprises:

the fire hydrant button is connected with the two bus interface board cards;

the alarm bell is connected with the two bus interface board cards;

the emergency lighting distribution device/emergency lighting distribution box is connected with the CAN interface board card;

and the fireproof door monitoring host is connected with the two bus interface board cards.

Preferably, the fire fighting all-in-one machine comprises:

the data driving module is used for receiving the environment information;

the linkage module is used for judging whether a linkage triggering condition is met or not according to the environment information, and when the linkage triggering condition is met, generating a linkage signal to trigger linkage operation of the fire-fighting peripheral equipment and recording a linkage operation event;

the event module is used for judging whether an event triggering condition is met or not according to the environment information, and when the event triggering condition is met, triggering an event and recording the event;

and the alarm module is used for judging whether an alarm triggering condition is met or not according to the environment information, and generating the alarm signal to trigger alarm and recording an alarm event when the alarm triggering condition is met.

Preferably, the fire fighting all-in-one machine further comprises:

and the data storage module is used for storing the linkage operation event, the alarm event and the environment information.

Preferably, the method further comprises the following steps:

and the graphic display device is connected with the fire-fighting all-in-one machine and used for displaying the environmental information.

Preferably, the method further comprises the following steps:

and the keyboard module is connected with the graphic display device and used for inputting control information to control the fire-fighting peripheral equipment.

Preferably, the method further comprises the following steps:

and the printer is connected with the graphic display device.

The access strategy system for data fusion of fire protection provided by the invention has the beneficial effects that: compared with the prior art, the access strategy system for data fusion of fire fighting comprises a fire fighting peripheral, an interface board card and a data processing module, wherein the fire fighting peripheral is connected with an input interface of the interface board card and is used for acquiring environmental information; the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces; the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling according to the linkage signal; and (5) performing linkage operation on the fire-fighting peripherals. According to the invention, each fire-fighting peripheral is connected with the fire-fighting all-in-one machine through the interface board card, so that a transmission mode that each fire-fighting host independently collects data and then independently collects data in a traditional mode can be broken, and environmental information is uniformly fused and accessed by the fire-fighting all-in-one machine through the interface board card, so that the problem of difficult information intercommunication among all fire-fighting system devices can be solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic diagram of an access policy system for data fusion for fire protection according to an embodiment of the present invention.

Fig. 2 is a block diagram of an internal interface of the all-in-one fire fighting machine according to the embodiment of the invention.

Fig. 3 is a block diagram of an external interface of a fire fighting all-in-one machine according to an embodiment of the present invention.

Fig. 4 is a functional block diagram of a fire fighting all-in-one machine provided by the embodiment of the invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention aims to provide an access strategy system for data fusion of fire protection, and aims to solve the problems that the existing fire protection system is multiple in equipment types and difficult in information intercommunication.

Referring to fig. 1-4, in order to achieve the above object, the present invention adopts the following technical solutions: an access policy system for data fusion for fire protection, comprising: an interface board card; the interface board card comprises a CAN interface board card, an RS485 interface board card, two bus interface board cards, a temperature sensing optical fiber interface board card and the like. The fire-fighting peripheral is connected with the input interface of the interface board card and is used for acquiring environmental information; the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces; and the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling the linkage operation of the fire-fighting peripheral equipment according to the linkage signal.

As another specific embodiment of the present invention, the integrated fire fighting machine comprises: the data driving module is used for receiving the environment information; the linkage module is used for judging whether a linkage triggering condition is met or not according to the environment information, and when the linkage triggering condition is met, generating a linkage signal to trigger linkage operation of the fire-fighting peripheral equipment and recording a linkage operation event; the event module is used for judging whether an event triggering condition is met or not according to the environment information, and when the event triggering condition is met, triggering an event and recording the event; and the alarm module is used for judging whether an alarm triggering condition is met or not according to the environment information, and generating the alarm signal to trigger alarm and recording an alarm event when the alarm triggering condition is met.

As another specific embodiment of the present invention, the integrated fire fighting machine further includes: and the data storage module is used for storing the linkage operation event, the alarm event and the environment information.

The integrated fire fighting machine according to the invention is further described below with reference to specific embodiments:

the processor of the fire-fighting all-in-one machine is a computing board card which can be divided into the following functional modules:

(1) data driving module

The computing board receives equipment data through buses such as Modbus, CAN, FECbus and the like, and uploads the equipment data to the HMI and the cloud platform through the Modbus, the FECbus or a communication bus. And the control signal can be transmitted to the equipment side reversely.

(2) Event module

And the computing board card judges whether the event triggering condition is met or not according to the change of the data state. If yes, triggering an event and recording the event.

(3) Alarm module

And the calculation board card judges whether the alarm triggering condition is met or not according to the change of the data state. If the alarm is met, triggering an alarm and recording the alarm.

(4) Linkage module

And the computing board card judges whether the linkage triggering condition is met or not according to the change of the data state. And if so, triggering linkage operation and recording.

(5) Data storage module

Information such as the running state information of the fire alarm trigger device, the running state information of the fire-fighting linkage equipment, the key action information, the operation information and the like is stored in the controller running data storage unit. And the data storage module is responsible for storing the data into the controller operation data storage unit according to a preset format.

As another specific embodiment of the present invention, the fire fighting peripheral includes a collection fire fighting peripheral and a linkage fire fighting peripheral; gather fire control peripheral hardware includes: the smoke detector is connected with the two bus interface board cards and is used for collecting the state information of smoke; the temperature-sensing detector is connected with the two bus interface board cards and is used for collecting the state information of the temperature; the manual alarm button is connected with the two bus interface board cards and is used for collecting manual data; the electrical fire monitoring detector is connected with the CAN interface board card or the RS485 interface board card and is used for acquiring the state information of residual current and temperature; the current/voltage sensor is connected with the CAN interface board card and is used for collecting a current/voltage value; and the temperature sensing optical fiber is connected with the temperature sensing optical fiber interface board card and is used for collecting the state information of the temperature sensing optical fiber.

As another specific embodiment of the present invention, the linked fire fighting peripheral includes: the fire hydrant button is connected with the two bus interface board cards; the alarm bell is connected with the two bus interface board cards; the emergency lighting distribution device/emergency lighting distribution box is connected with the CAN interface board card; and the fireproof door monitoring host is connected with the two bus interface board cards.

The access strategy method of the invention comprises the following steps:

a) under the traditional mode, gaseous fire extinguishing controller, emergency lighting controller, prevent fire door monitoring host computer, electric fire monitoring host computer, fire-fighting equipment power supply monitor, graphic display device, temperature sensing optical fiber host computer pass through communication port and insert fire alarm host computer, and each host computer distributes not concentrated, and behind the peripheral hardware data information of each kind of host computer collection, the fire alarm host computer is uploaded to in the respective communication protocol of rethread, and this process causes fire-fighting equipment information intercommunication difficulty, and each equipment is managed alone.

b) The circuit for externally collecting the peripheral data information in each host is designed into cage pluggable interface boards (CAN, RS485, temperature sensing optical fibers and two buses), different types of peripherals are connected into different types of interface boards (not divided by functional hosts, but divided by external interface types), each peripheral data information is firstly connected into the corresponding interface board for primary data processing, the interface boards are uniformly transmitted to the computing board through the appointed CAN communication interface (based on a uniform communication protocol) of the backboard, the computing board realizes the main control function of each functional host in the original traditional mode, processes various peripheral information, and then sends action information to a human-computer interface, a hard wire control module and the like for executing feedback action, so that the control of a fire system is realized.

c) After different types of peripheral data are accessed through an interface board, the invention establishes a uniform communication protocol, which comprises the following specific steps:

c.1 communication mode

c.1.1, communication mode

The computing board card is communicated with each interface board card through a CAN or an Ethernet, and the computing board card is a main control node and is responsible for receiving the uploading information, issuing control and management information of the interface board cards. The calculation board card and each interface board card obtain different board card addresses by inserting into different slot positions of the backboard.

c.1.2, response

The target board card receiving the request message should send a response message to the source device, if the response message is not received within 1s after the source device sends the request message, the request message needs to be sent again, and the number of times of retransmission does not exceed 3 times.

c.2, protocol

c.2.1, data frame Structure

The data frame consists of a frame head, a message and a frame tail.

The header and trailer of the c.2.1.1 data frame are specified by the network protocol implementing the FECbus protocol.

The header of the c.2.1.2 data frame specifies information related to the communication.

The message of the c.2.1.3fecbus data frame is an application data unit.

And c.2.1.4, dividing the data frame into a request frame, a response frame and a status response frame.

The data bits include function codes and numbers, and represent different functions, such as system self-check, system reset, linkage event, equipment state check, and the like.

(1) Fire alarm controller:

the outer device mainly comprises a smoke detector (fire alarm, early warning, line fault, internal fault, soft isolation (state), soft isolation (control)), a temperature-sensing detector (fire alarm, early warning, line fault, internal fault, soft isolation (state), soft isolation (control)), a manual alarm button (fire alarm, line fault, internal fault, soft isolation (state), soft isolation (control)), a fire hydrant button (fire alarm, line fault, internal fault, soft isolation (state), soft isolation (control)), an audible and visual alarm (controlled equipment), an alarm bell, an input module (feedback state, line fault, internal fault, soft isolation (state), soft isolation (control), control state), an output module (line fault, internal fault, soft isolation (state), soft isolation (control)), a board card is firstly connected into the fire-fighting all-in-one machine through two bus interfaces, after the two bus interface board cards receive and process peripheral related data information, the CAN communication interface of the backboard is accessed to the computing board card through a well agreed unified communication protocol, and then related events, alarming, linkage and data storage are executed.

(2) Gas fire extinguishing controller:

the peripheral equipment mainly comprises a smoke detector, a temperature-sensitive detector, an input module and an input/output module, the smoke detector, the temperature-sensitive detector, the input module and the input/output module are firstly connected into the fire-fighting all-in-one machine through two bus interface board cards, the two bus interface board cards are connected into a computing board card through a well-agreed unified communication protocol after receiving and processing peripheral equipment related data information, and then related events, alarming and linkage are executed and data storage is carried out.

(3) An emergency lighting controller:

the emergency lighting distribution device/emergency lighting distribution box is arranged outside the fire-fighting integrated machine, and is connected to the fire-fighting integrated machine through a CAN communication interface board card (fault type: off-line, main power failure, battery fault, termination voltage, under-voltage and loop fault), the CAN communication interface board card is connected to a computing board card through a well-agreed unified communication protocol after receiving and processing relevant peripheral data information, and then relevant events, alarming and linkage are executed and data storage is carried out.

(4) Prevent fire door monitoring host computer:

an input/output interface module is arranged outside the fire-fighting all-in-one machine, the fire-fighting all-in-one machine is firstly accessed into the fire-fighting all-in-one machine through two bus interface board cards, after the two bus interface board cards receive and process peripheral related data information, the two bus interface board cards are accessed into a computing board card through a well-agreed unified communication protocol through a CAN communication interface of a back plate, then related events, alarming and linkage are executed, and data storage is carried out.

(5) Electric fire monitoring host computer:

the external of the fire protection integrated machine is provided with an electric fire monitoring detector (A phase temperature alarm, A phase temperature real-time value, A phase temperature fault, B phase temperature alarm, B phase temperature real-time value, B phase temperature fault, C phase temperature alarm, C phase temperature real-time value, C phase temperature fault, electric leakage alarm, electric leakage real-time value and electric leakage fault), the electric fire monitoring detector is connected into a residual current and temperature detector, the residual current and temperature detector is firstly connected into the fire protection integrated machine through a CAN interface board card or an RS485 interface board card, after the interface board card receives and processes relevant peripheral data information, a CAN communication interface of a back board is connected into a calculation board card through a well-agreed unified communication protocol, and then relevant events, alarm and linkage are executed, and data storage is carried out.

(6) Fire-fighting equipment power supply monitor:

the fire-fighting integrated machine is connected with a fire-fighting integrated machine through a CAN communication interface board card, the CAN communication interface board card of the backboard receives and processes relevant peripheral data information, the CAN communication interface board card is connected with a calculation board card through a well-agreed unified communication protocol, and then relevant events, alarms, linkage and data storage are executed.

(7) A graphic display device:

the human-machine interface (HMI) realizes the function of a graphic display device, is connected with the RJ45 interface of the calculation board card through the exchange module, executes related events, alarms and linkage after being accessed into the calculation board card through a well agreed unified communication protocol, and stores data. The graphic display device of the invention is also connected with a keyboard module and a printer.

(8) Temperature-sensing optical fiber host

The fire fighting integrated machine is characterized in that temperature sensing optical fibers (a starting position, an ending position, a pre-alarm threshold, a fire alarm threshold, a temperature rise alarm threshold, an early warning state, a fire alarm state, a temperature rise alarm state, a pre-alarm position, a fire alarm position, a temperature rise alarm position, a real-time maximum temperature rise rate, a maximum temperature rise value distance of-meter, a real-time maximum temperature and a maximum temperature value distance of-meter) are arranged outside the fire fighting integrated machine, the fire fighting integrated machine is connected into the fire fighting integrated machine through a temperature sensing optical fiber interface board card, the temperature sensing optical fiber interface board card receives and processes peripheral related data information, a CAN communication interface of a backboard or an RJ45 of the board card are connected into an exchange module, and related events, alarms, linkage and data storage are executed after the temperature sensing optical fiber interface board card is connected into a calculation board card through an agreed unified communication protocol.

The invention also comprises: and the cloud platform is connected with the computing board card and is used for receiving fire-fighting data. The cloud platform can also receive data information including weather and the like, sense the fire safety situation in real time and realize data networking and information management.

In the embodiment of the invention, the intelligent control system further comprises a hard-wire control module which is respectively connected with the manual operation panel (manual disk) and the operation bus disk (bus disk), and when the computing board card has a fault, the intelligent control system can also issue a manual control instruction to the hard-wire control module through the manual disk and the bus disk to manually control the fire-fighting peripheral equipment, so that accidents are avoided.

The access strategy system for data fusion of fire protection provided by the invention has the following effects:

(1) realize situation integral perception and accurate management

The intelligent fire fighting system collects relevant data of all links of fire safety management in a unified mode and utilizes a data analysis technology of a data center station to carry out deep excavation and calculation, the fire safety situation is sensed in real time, the running state of fire fighting facilities can be mastered in real time through remote dynamic monitoring of the fire fighting internet of things, and accurate management of fire safety is achieved.

(2) Realizing management flow closed loop and retrospective management

The fire safety management system has the advantages that daily fire safety management work lines such as fire control duty, equipment inspection, fire inspection, hidden danger investigation, drill training, fire maintenance and the like are changed on line, so that traceable and full-flow closed-loop management of the fire safety management work can be effectively realized, the working efficiency of fire workers is improved, and the responsibility tracing of related accidents and quantitative examination management of the workers are realized.

(3) Realize real-time monitoring and intact management of facilities

The system has the advantages that the running state of the fire-fighting equipment is monitored in real time and managed in a standardized mode, fault information is obtained in time, fault trend analysis is achieved, workers can conveniently and timely handle the fault information, and therefore the urban rail transit fire-fighting safety equipment is kept in a good state continuously.

The invention discloses an access strategy system for data fusion of fire fighting, which comprises a fire fighting peripheral, an interface board card and a data processing module, wherein the fire fighting peripheral is connected with an input interface of the interface board card and is used for acquiring environmental information; the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces; the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling according to the linkage signal; and (5) performing linkage operation on the fire-fighting peripherals. According to the invention, each fire-fighting peripheral is connected with the fire-fighting all-in-one machine through the interface board card, so that a transmission mode that each fire-fighting host independently collects data and then independently collects data in a traditional mode can be broken, and environmental information is uniformly fused and accessed by the fire-fighting all-in-one machine through the interface board card, so that the problem of difficult information intercommunication among all fire-fighting system devices can be solved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. An access policy system for data fusion for fire protection, comprising:

an interface board card; the interface board card comprises two bus interface board cards, a CAN communication interface board card and an RS485 interface board card;

the fire-fighting peripheral is connected with the input interface of the interface board card and is used for acquiring environmental information;

the fire fighting integrated machine is connected with an output interface of the interface board card and used for generating fire fighting data according to the environment information; the fire-fighting data comprises an alarm signal and a linkage signal; the output interfaces of the interface board card are all CAN interfaces;

and the fire-fighting linkage control equipment is connected with the fire-fighting all-in-one machine and is used for controlling the linkage operation of the fire-fighting peripheral equipment according to the linkage signal.

2. The access policy system for data fusion for fire protection of claim 1, wherein the fire protection peripheral comprises an acquisition fire protection peripheral and a linked fire protection peripheral; gather fire control peripheral hardware includes:

the smoke detector is connected with the two bus interface board cards and is used for collecting the state information of smoke;

the temperature-sensing detector is connected with the two bus interface board cards and is used for collecting the state information of the temperature;

the manual alarm button is connected with the two bus interface board cards and is used for collecting manual data;

the electrical fire monitoring detector is connected with the CAN interface board card or the RS485 interface board card and is used for acquiring the state information of residual current and temperature;

the current/voltage sensor is connected with the CAN interface board card and is used for collecting a current/voltage value;

and the temperature sensing optical fiber is connected with the temperature sensing optical fiber interface board card and is used for collecting the state information of the temperature sensing optical fiber.

3. The access policy system for data fusion for fire protection of claim 2, wherein the linked fire protection peripheral comprises:

the fire hydrant button is connected with the two bus interface board cards;

the alarm bell is connected with the two bus interface board cards;

the emergency lighting distribution device/emergency lighting distribution box is connected with the CAN interface board card;

and the fireproof door monitoring host is connected with the two bus interface board cards.

4. The access policy system for data fusion for fire protection of claim 1, wherein the all-in-one fire protection machine comprises:

the data driving module is used for receiving the environment information;

the linkage module is used for judging whether a linkage triggering condition is met or not according to the environment information, and when the linkage triggering condition is met, generating a linkage signal to trigger linkage operation of the fire-fighting peripheral equipment and recording a linkage operation event;

the event module is used for judging whether an event triggering condition is met or not according to the environment information, and when the event triggering condition is met, triggering an event and recording the event;

and the alarm module is used for judging whether an alarm triggering condition is met or not according to the environment information, and generating the alarm signal to trigger alarm and recording an alarm event when the alarm triggering condition is met.

5. The access policy system for data fusion for fire protection of claim 4, wherein the all-in-one fire protection machine further comprises:

and the data storage module is used for storing the linkage operation event, the alarm event and the environment information.

6. The access policy system for data fusion for fire protection of claim 5, further comprising:

and the graphic display device is connected with the fire-fighting all-in-one machine and used for displaying the environmental information.

7. The access policy system for data fusion for fire protection of claim 6, further comprising:

and the keyboard module is connected with the graphic display device and used for inputting control information to control the fire-fighting peripheral equipment.

8. The access policy system for data fusion for fire protection of claim 6, further comprising:

and the printer is connected with the graphic display device.

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